Promoting the suitability of graphitic carbon nitride and metal oxide nanoparticles: A review of sulfonamides photocatalytic degradation

The widespread consumption of pharmaceutical drugs and their incomplete breakdown in organisms has led to their extensive presence in aquatic environments. The indiscriminate use of antibiotics, such as sulfonamides, has contributed to the development of drug-resistant bacteria and the persistent po...

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Published in:Chemosphere (Oxford) 2024-03, Vol.351, p.141218-141218, Article 141218
Main Authors: Zango, Zakariyya Uba, Lawal, Muhammad Abubakar, Usman, Fahad, Sulieman, Abdelmoneim, Akhdar, Hanan, Eisa, M.H., Aldaghri, Osamah, Ibnaouf, Khalid Hassan, Lim, Jun Wei, Khoo, Kuan Shiong, Cheng, Yoke Wang
Format: Article
Language:English
Subjects:
Degradation
Graphitic bio-carbon nitride
Heterojunction
Metal oxide based nanoparticles
Sulfonamides
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Summary:The widespread consumption of pharmaceutical drugs and their incomplete breakdown in organisms has led to their extensive presence in aquatic environments. The indiscriminate use of antibiotics, such as sulfonamides, has contributed to the development of drug-resistant bacteria and the persistent pollution of water bodies, posing a threat to human health and the safety of the environment. Thus, it is paramount to explore remediation technologies aimed at decomposing and complete elimination of the toxic contaminants from pharmaceutical wastewater. The review aims to explore the utilization of metal-oxide nanoparticles (MONPs) and graphitic carbon nitrides (g-C3N4) in photocatalytic degradation of sulfonamides from wastewater. Recent advances in oxidation techniques such as photocatalytic degradation are being exploited in the elimination of the sulfonamides from wastewater. MONP and g-C3N4 are commonly evolved nano substances with intrinsic properties. They possessed nano-scale structure, considerable porosity semi-conducting properties, responsible for decomposing wide range of water pollutants. They are widely applied for photocatalytic degradation of organic and inorganic substances which continue to evolve due to the low-cost, efficiency, less toxicity, and more environmentally friendliness of the materials. The review focuses on the current advances in the application of these materials, their efficiencies, degradation mechanisms, and recyclability in the context of sulfonamides photocatalytic degradation. [Display omitted] •Graphitic bio-carbon nitride and metal oxide for the degradation of sulfonamide.•Advanced modifications for improving photocatalytic efficiency of the new materials.•Effective stability and reusability of new materials for photocatalytic applications.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2024.141218